AEL Staff Work; staff-ahn ; PRJ-BLE ; PRJ-IV
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- ºÒ¿ëó¸®: 2025³â. Misssing(Çаúó¸®; 25.6.25 ÀÓÁø/ÇãÁö È®ÀÎ)
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¤· Win10 > Win11 ¾÷±×·¹ÀÌµå °¡´É È®ÀÎ: ¸ÞÀÏ·Î º¸³¿.
[ÀÓµ¿: 1) Monopulse feed with dielectric rod antenna: file ã±â; 2) µðµõµ¹ ½ÃÇè º¸¿Ï; 3)
25.6.7: back-to-back
transition cst ÆÄÀÏ
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¤· G-ICT Àç·áºñ ÁýÇà: A-farm 1°Ç ó¸®, 1°Ç ó¸® ´ë±â, JWC 1°Ç 󸮴ë±â
¤· À±¿ø ½ÃÁ¦Ç°ºñ ÁýÇà: ENC 2ȸ, JWC, ºí·ç¿À¼Ç ÃÑ 4ȸ(1ȸ¿Ï·á, 3ȸ 7¿ùÁß ¿Ï·á)
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¤· À±¿øÀç·áºñ ÁýÇà: 26,300õ¿ø
¤· µðµõµ¹ °øÀνÃÇ躸°í¼: 2°Ç
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- ¿¹»êÁýÇà ¿¬±¸½Ç: Àç·áºñ=10,000õ¿ø; ÀÚ¹®·á.ÀÓµ¿=3,000; ÀÚ¹®·á.¾Èº´=3,000
- ¿¹»êÁýÇà: À̾ؾ¾, Àç·áºñ=5,000õ¿ø
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½ÃÇèÀü ¿¹ºñ½ÃÇè
3. µðµõµ¹ ½ÇÇè°á°ú Á¤¸®: 2°Ç; ¹Ì¿Ï¼º; ±ÝÁÖ Åä¿äÀÏ º¸¿Ï
4. 2025³â Çб³¹°Ç° ºÒ¿ëó¸® ¸ñ·Ï ÃßÃâ: ¸ÞÀÏ Âü°í
(Âü°í) ¿¬±¸³ëÆ® ÀÛ¼º
- µðµõµ¹: 12°³¿ù ¿Ï¼º[À±¿ø= ÇãÁö.ÇãÁö, ±è¿µ.±è¿µ, ¹æ¿ä.ÀÌÂù; À±¿ø.À§Å¹=¾Èº´.¾Èº´, ¼¼Û.¼Áö(24.11-25.2), Ç¥¼ö.¾ÈÀ¯(24.3-24.8)] [ºí·ç.À§Å¹=±è*ÁÖ.ÇãÁö, ÀÓµ¿(24.11-25.2).ÀÓµ¿, Ç¥¼ö(24.10-25.8).¾ÈÀ¯, ¹æÁ¤(25.3-25.7).¹æÁ¤(ÀÓµ¿¼®¿¡ À̾î¼)]
- RFID ¸®´õ: ¾Èº´.¾Èº´, ¼¼Û.ÇãÁö(24.4-25.2), ÀÓµ¿.ÀÓµ¿(24.4-25.2), Ç¥¼ö(24.4-25.3).¾ÈÀ¯
- G-ICT 2024³â: ¾Èº´.¾Èº´, ÇãÁö.ÇãÁö, ½ÅÇü.¼Áö
12. ºñ¹ßµð ¾ÈÅ׳ª ¼öÁ¤º» Á¢¼ö: °ÔÀç·á ÃÖ¼º°ï ±³¼ö G-ICT ¿¹»ê¿¡¼(ÃÖ¿ø¼® ¹Ú»ç, G-ICT Âü¿©Çлý Ãß°¡; ÁÖÀúÀÚ ±è¼±°¢¿¡¼ ³ª¿î¿µÀ¸·Î º¯°æ, ¹Ú»ó¿µ Ãß°¡)
13. CST Á¤½Ä¹öÀü 603È£ ÄÄÇ»ÅÍ¿¡ ¼³Ä¡; Çѱ¹Áö»ç¿¡¼ ¼³Ä¡ÆÄÀÏ ¸ÞÀÏ·Î ¼ÛºÎ(8GB
+ 6GB), V.2022 ¼³Ä¡; ¶óÀ̼¾½º ÆÄÀÏ ¼³Ä¡ ¹®Á¦ ¹Ì°á> ¼¼Û¿ø¿¡°Ô ¿äû(3.21)
20. µðµõµ¹.À±¿ø: ¿¹»êÁýÇà °ü¸®
21. Pre-Àç·áºñ °ü¸®: KRF(90¸¸¿ø ÇؼÒ: ¿Ï·á); ÇÑ»ùµðÁöÅØ (560¸¸)
[¹æÁ¤: ¿¬±¸³ëÆ® ÀÛ¼º, °ÇÃà±â»ç, °ÇÃà°ø.±è¿Á, Èñ¸Á»ç´Ù¸®ÀåÇбÝ, â¾÷.µðµõµ¹
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[±è±â: ÇÐÀ§³í¹® ÀÛ¼º; MCU; ¾ÈÅ׳ª ³í¹®¿ë ¼³°è
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1. 2025-1Çб³ ÀåÇбÝ: C±Þ=³ª¿î, TA=Ç¥¼ö(BK¹Þ±â¶§¹®¿¡ 946,560(4°³¿ùÇÕ°è))
2. ¿µ¾î½ÃÇè(ÅäÀÍ620³»±¹ÀÎ 650¿Ü±¹ÀÎ; À¯È¿±â°£2³â): Ç¥¼ö¿¬, ¹æ¿äÇÑ, ³ª¿î¿µ, ±è±âÈ«, ¾ÈÀ¯Áø
3. ¿µ¾î½ÃÇè(7.1-7.3µî·Ï; 8.5-8.9½ÃÇà), Á¾ÇÕ½ÃÇè(½Åû8.5-8.7; 9.9-9.13½ÃÇà)
4. Ç¥¼ö¿¬ Çѱ¹¾î4±Þ (Çб³Áõ¸íÁ¦Ãâ ¹× 2Çб⠵î·Ï±Ý °¨¸é ½Åû), Çбâ½ÃÀÛÀü 1°³¿ù Áß Á¦Ãâ
5. 2024³â ¼Òµæ¼¼È¯±Þ(ÀÓµ¿,¼¼Û,¹èÀÏ,ÇãÁö,Ç¥¼ö) ½Åû¼ »çÀü ÀÛ¼º, 5.1Á¦Ãâ
[¾Èº´
1. 2025µðµõµ¹.Áغñ: UWB; Àû¿Ü¼± Ä«¸Þ¶ó
2. ÇмúÁö ³í¹®: symmetry, applsci, sensors °¢ 1Æí
[¾¾Áö¿¡½º
- ÆÛ½ÅÀú°¡È1: ÀüÀÚºÎÇ°ÃÑ¾× 13,446¿ø (FSR 6,245¿ø, LED 306¿ø Á¦¿ÜÈÄ ³ª¸ÓÁö ºÎÇ° 6,895¿ø)
Áß¿ø´ë.±â°è: SCI or SCOPUS 1Æí; https://spubl.az/en/blog/publication-of-studies-in-scopus-answers-to-frequently-asked-questions
[±è±â:
1. 75% length 5-element
monopulse antenna: 9.5-11.5GHz, theta_0=68,
pc_sum=48, pc_del=64, del ¼ÒÀÚ ±æÀÌ 24 °¨¼Ò ´Ù½Ã Çؼ® => ÇØ°á ¾ÈµÊ.
1b. same, 17-20GHz, theta_0=25, pc_sum=105, pc_del=95, del¼ÒÀÚ 10°¨¼ÒÈÄ ´Ù½Ã Çؼ®
2. 2024-5-17: 10-12GHz, prime-focus deep reflector, illu.
half-angle = 75deg., feed = cir.
wavegude open end with choke rings, reflector gain
(nominal) = 40dB, aper eff
= 75%
3. 2023-4-22:
dielectric-filled double ridge waveguide radiator: analysis of S11
4. 2023-9-23:
dielectric-filled double ridge waveguide aperture matching, er=5,
f=5.2-22GHz, S11< -10dB; coax-to-DRW transition Àç¼³°è ÇÊ¿ä
5. 2024-1-13: Vivaldi
antenna (=tapered slot antenna), thick metal (t=4.5mm),
side plate (70mm distance), back bracket =
polycarbonate, S11< -10dB
at 5-25GHz, Gain = 6.2/12.3/13.6/13.7 @ 5/10/15/20GHz, 107*37*70mm
6. 2024-4-20: er=2.93, 5-dielectric rod antenna, feed only, constant gain
sum pattern, 12-18GHz, G=10-11dB,
Transition Ãß°¡ÇÏ¿© ¿Ï¼º
7. 2024-4-20: er=2.93, 5-dielectric rod antenna, feed only low sidelobe, 17-22GHz, G=11-12dB, SLL = -20dB, Transition Ãß°¡ÇÏ¿© ¿Ï¼º
8. 2024-5-11: er=2.93, 5-dielectric rod antenna, Cassegrain,
D=600.7mm, Feed illum. 25deg, 17-21GHz, High gain in DEL
channel, 22-23GHz¿¡¼ ¹Ý»ç°æ Çؼ® Ãß°¡(ÇöÀç Çǵå Ư¼º¸¸ ÀÖÀ½)
9. To be done: Àå°æ¿ù ³í¹® ±¸Çö, Feed Çؼ® #14 »ç¿ë
10. 2024-5-11: er=2.93, 5-dielectric rod antenna, prime focus, D=1087mm, feed angle 60deg, 10-11GHz, Gsum=39.8/40.4dB @ 10/11GHz, Gdiff=36dB @10/11GHz, Transition Ãß°¡ÇÏ¿© ¿Ï¼º
11. 2024-5-18: choke ring
feed, prime focus, 10-12GHz, aper
eff=75%; °á°ú Á¤¸®¿¹Á¤
12. To be done: rec.
waveguide magic-T simulation
[¼¼Û:
1. ÇÐÀ§³í¹®.¼¼Û: 1.1-1.6GHz Dual-CP
antenna, ground plane effect (AR beamwidth) and
remedy (solution), absorber-lined groundplane, array;
¸ÂÃãÇü¼Æ÷ÅÍÁî º¸°í¼ ÀÚ·á »ç¿ë
2. ÇÐÀ§³í¹®.³ª¿î.¼®»ç: 1.5-1.7GHz Dual-CP
antenna; ¸ÂÃãÇü ¼Æ÷ÅÍÁî º¸°í¼ ÀÚ·á »ç¿ë
3. Prime-focus reflector
antenna feed 1: Inverse cone, er = 2.78, 3.5-7.0GHz, wall=1t, theta_0=68, Feed = finished, pc=69, z_ap=94.4,
Transition=Check, Reflector=To do
4. Feed 2: cyliner cap, er=2.78, 4.6-7.0GHz, theta_0=59, pc=68, z_ap=72
[¹èÀÏ: WR75-right-angle (0.0625-0.345a, 0.345-2a)=finished, WR75-straight ((0.345-1.5a)=finished,
(0.15,0.20,0.25,0.30a)=underway)
[ÀÓµ¿:
1. ÇÐÀ§³í¹®.ÀÓµ¿: Rec wg oe
imp matching: LLLL, CCCC
matching °á°ú ¿Ï·á; intro/theory Áöµµ±³¼ö Áö¿ø
2. ÇÐÀ§³í¹®.¾ÈÀ¯: Rec wg oe imp matching: LCLC matching; intro/theory Áöµµ±³¼ö Áö¿ø
3. ¼³°è
1) er=2.9,
5-rod monopulse feed, cir cyl
rod
Sum rod: Lout=138.15, L_taper_in=51.85, L_uniform_in=31.2,
D_tip=3.0
Delta rod: Lout=103.15, L_taper_in=51.84, L_uniform_in=31.2,
D_tip=3.0
Waveguide: Dia=13.6, gap=1.0
f=14-18GHz:
S11 < -22dB, S21 < -35 dB
Phase center: z=170, sum rod
end z = 253.15
Gain=18.3,18.9,19.0,18.3,17.5
@ 14,15,16,17,18GHz
Phase error (deg) = -16,0,20,29,40 @ 14,15,16,17,18GHz
Sum angle: 10-dB angle = 18
Delta taper at 18 deg: 1-2 dB
With coax-to-WG transition
2. er = 7.5,
single rod, constant gain antenna, w/o transition, rec cyl
rod , coax-to-rec wg
transition for S11 < -15dB
f = 4.7-13.8GHz; coax-to-sq
wg ÇÏ´Â Áß, radiator +coax-to-sq wg radiator ÇÒ ¿¹Á¤
#14: G=12.4-13.7dB @ 6-15GHz
#3: G=9.3-10.8dB @ 6-16GHz
# er=5.0,
dielectric filled aperture matched circular WG
radiator, 8.9-17.8GHz, gain = 6-7dB;
Ư¼ºÈ®ÀÎÇÊ¿ä
3a. Dielectric loaded circular waveguide radiator: er = 7.5, with Coax-to-CW
transition, f=7.1-19GHz for -10dB
reflection
3b. Dielectric loaded circular waveguide radiator: er=5.0, with Coax-to-CW
transition, f=9.2-24GHz for -10dB
reflection